软件简介

AFT Arrow 5.0 provides comprehensive, compressible pipe flow analysis and system modeling capabilities combined with ease-of-use. Addressing open and closed loop systems, AFT Arrow includes a built-in library of fluids and fittings, variable model configurations, fan/compressor and control valve modeling and much more. With the optional Chempak add-in, a thermo-physical database of approximately 600 gases is available to further expand the envelope of your analysis and design. AFT Arrow goes beyond the boundaries of fluid flow analysis, with thermal analysis capabilities including piping heat transfer, heat exchanger modeling and varying fluid properties.

* GSC-Goal Seek and Control to automate the determination of input parameters that will yield desired output values and simulate control functions within systems

* CST-CoST calculations of pipes and components

AFT Arrow employs a robust solver using proven matrix methods to solve the governing equations of pipe flow to conduct a true and rigorous compressible flow solution. AFT Arrow is unique in its ability to solve for adiabatic, isothermal and generalized heat transfer conditions and with sonic choking. The full power of this technical sophistication is readily accessible through an advanced visual interface. From the powerful drag-and-drop model building features to the fully customizable output, AFT Arrow becomes an extension of the engineer's mind, freeing him or her to focus on their system, not the mechanics of software manipulation.

More than flow analysis, AFT Arrow lets you build your piping system in software. Vary pipe sizes, compressor/fan curves, valve settings, fluid properties, operating lineup...virtually anything you can do with the real system can be done within AFT Arrow, accurately simulating the individual system components and their interaction. Whether you're designing new systems, modifying existing ones or analyzing system operations, The ability to analyze alternates and the insight provided by an AFT Arrow model significantly improves the quality of systems engineering you can achieve, leading to less costly, more efficient and more reliable piping systems.